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Benjamin Thierry
Researcher at University of South Australia
Publications - 147
Citations - 4967
Benjamin Thierry is an academic researcher from University of South Australia. The author has contributed to research in topics: Medicine & Surface plasmon resonance. The author has an hindex of 35, co-authored 126 publications receiving 4210 citations. Previous affiliations of Benjamin Thierry include Montreal Heart Institute & Agency for Science, Technology and Research.
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Bioactive coatings of endovascular stents based on polyelectrolyte multilayers.
TL;DR: The enhanced thromboresistance of the self-assembled multilayer together with the antiinflammatory and wound healing properties of hyaluronan and chitosan are expected to reduce the neointimal hyperplasia associated with stent implantation.
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Functionalized Magnetite Nanoparticles—Synthesis, Properties, and Bio-Applications
Peter Majewski,Benjamin Thierry +1 more
TL;DR: This article attempts to review the current status of magnetite nanoparticles preparation and use, with a special emphasis on bio-medical applications, but also to outline the promises and challenges associated to this emerging technology.
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Delivery platform for hydrophobic drugs: prodrug approach combined with self-assembled multilayers.
Benjamin Thierry,Piotr Kujawa,Cathy Tkaczyk,Francoise M. Winnik,Luc Bilodeau,Maryam Tabrizian +5 more
TL;DR: It is shown that the presence of the hydrophobic paclitaxel moieties does not prohibit the layer-by-layer construction of the multilayers and application of this delivery platform to substrates such as colloids, biomedical implants, or vascular tissues may lead to new therapeutic strategies.
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Effect of surface treatment and sterilization processes on the corrosion behavior of NiTi shape memory alloy
TL;DR: Electropolished NiTi and 316L stainless-steel alloys released similar amounts of nickel after a few days of immersion in Hank's solution, and measurements by atomic absorption have shown that the amount of released nickel from passive dissolution was below the expected toxic level in the human body.
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Nanocoatings onto arteries via layer-by-layer deposition: toward the in vivo repair of damaged blood vessels.
TL;DR: The deposition of polysaccharide-based self-assembled nanocoatings onto damaged arteries is described as a means not only to protect a damaged artery against thrombogenesis, but also to control the healing processes by incorporating biologically active components within the multilayer.